Power sensing RF termination apparatus including temperature compensation means
Abstract
A power sensing RF termination comprising a calibration means allows the user to correct for part-to-part variation, miss match loss and output offset. The power sensing RF termination comprises a first and second temperature sensitive resistors connected at a first common junction, a switching means for connecting either an RF input or a DC power reference to the first common junction, a first switch for connecting either a DC voltage source or a first current detecting resistor to the first temperature sensitive resistor, and a second current detecting resistor connected to the second temperature sensitive resistor. A first output terminal is connected to the junction between the first switch and the first temperature sensitive resistor. A second output terminal is connected to the first common junction. A third output terminal is connected to the junction between the second temperature sensitive resistor and the second current detecting resistor. The first and second temperature sensitive resistors have substantially the same temperature coefficient of resistance; but the first temperature sensitive resistor has a positive temperature coefficient of resistance while the second temperature sensitive resistor has a negative temperature coefficient of resistance. Using the measurements of the voltages at the first, second and third output terminals, a calibration table is formed correlating the power absorbed in the first and second temperature sensitive resistors to the ratio between the voltage drop across either the first or second temperature sensitive resistor and the voltage drop across both the first and second temperature resistive resistors.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A power sensing RF termination comprising:
first and second temperature sensitive resistors connected at a first common junction;
a switching means for connecting either an RF input or a DC power reference to the first common junction;
a first switch for connecting either a DC voltage source or a first resistor to the first temperature sensitive resistor, the first switch and the first temperature sensitive resistor connected at a second common junction; and
a second resistor connected with the second temperature sensitive resistor at a third common junction.
2. The power sensing RF termination in accordance to claim 1 wherein the first temperature sensitive resistor has a positive temperature coefficient of resistance and the second temperature sensitive resistor has a negative temperature coefficient of resistance.
3. The power sensing RF termination in accordance to claim 2 wherein the first and second temperature sensitive resistors have substantially the same temperature coefficient of resistance and substantially the same nominal resistance at room temperature.
4. The power sensing RF termination in accordance to claim 1 , wherein a third resistor is connected in series to the DC voltage source such that the third resistor is connected between the DC voltage source and the first switch when the first switch is closed to apply the DC voltage source to the power sensing RF termination.
5. The power sensing RF termination in accordance to claim 1 , wherein the switching means comprises a second switch which either connects or disconnects the RF input to a first capacitor, said capacitor being connected to the first common junction.
6. The power sensing RF termination in accordance to claim 5 , wherein the switching means further comprises a third switch which either connects or disconnects the DC power reference to a fourth resistor, said fourth resistor being connected to the first common junction.
7. The power sensing RF termination in accordance to claim 1 , wherein a second capacitor is connected between the second common junction and a ground reference and wherein a third capacitor is connected between the third common junction and a ground reference.
8. The power sensing RF termination in accordance to claim 1 wherein the first and second temperature sensitive resistors are seen by the RF input to be connected in parallel.
9. The power sensing RF termination in accordance to claim 1 , wherein a fifth resistor is connected between the second common junction and a first output terminal, a sixth resistor is connected between the first common junction and a second output terminal, and a seventh resistor is connected between the third common junction and a third output terminal.
10. A power sensing RF termination comprising:
first and second temperature sensitive resistors connected at a first common junction;
a first switch for connecting either an RF input or a DC power reference to the first common junction;
a second switch for connecting either a DC voltage source or a first resistor to the first temperature sensitive resistor, the first switch and the first temperature sensitive resistor connected at a second common junction; and
a second resistor connected with the second temperature sensitive resistor at a third common junction.Cited by (0)
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